KR20220162197A - Choking fire extinguisher for electric vehicle fire suppression - Google Patents

Abstract

The present invention relates to a fire blanket for fire suppression of an electric vehicle and, more specifically, to a fire blanket for fire suppression of an electric vehicle, which isolates indoor air and outdoor air by covering an electric vehicle involved in an accident to prevent fire due to accidents of the electric vehicle and an explosion due to the ignition of a battery or an outflow of charged hydrogen, thereby suppressing fire by suffocating the indoor air, and selectively discharging toxic gases. Especially, the fire blanket for fire suppression of an electric vehicle detects the concentration of inflammable gases leaking from an electric vehicle covered with the fire blanket at the scene of an accident, and maintains the pressure and the gas concentration inside the fire blanket by the operation of an exhaust fan, thereby increasing the safety of fire suppression by preventing oxygen inflow and explosion. The fire blanket for fire suppression of an electric vehicle can isolate indoor air and outdoor air by covering an electric vehicle involved in an accident to prevent fire due to accidents of the electric vehicle and an explosion due to the ignition of a battery or an outflow of charged hydrogen, thereby suppressing fire by suffocating the indoor air, and selectively discharging toxic gases to improve convenience in fire suppression. Especially, the fire blanket for fire suppression of an electric vehicle can detect the concentration of inflammable gases leaking from an electric vehicle covered with the fire blanket at the scene of an accident, and maintain the pressure and the gas concentration inside the fire blanket depending on safety levels by the operation of an exhaust fan, thereby increasing safety of fire suppression by preventing oxygen inflow and explosion.

Description

Fire suppression cloth for electric vehicle fire suppression {Choking fire extinguisher for electric vehicle fire suppression}

The present invention relates to a fire suppression cloth for extinguishing a fire in an electric vehicle, and more particularly, covers an accident electric vehicle to prevent a fire caused by an accident of an electric vehicle and an explosion caused by ignition of a battery or leakage of charged hydrogen. ,By blocking outside air, it suffocates the inside to extinguish the fire and to selectively discharge toxic gases.

In particular, by detecting the concentration of flammable gas leaking from an electric vehicle covered by a fire suppression cloth at the accident site and operating an exhaust fan to maintain the pressure and gas concentration inside the fire suppression cloth to prevent oxygen inflow and explosion, it is a method of fire suppression. It relates to a fire suppression cloth for fire suppression of an electric vehicle configured to increase safety.

Fuel efficiency improvement and eco-friendliness have become key items in vehicle development due to high oil prices and CO2 regulations in recent years, and advanced car makers are continuously developing hybrid and electric vehicle technologies to achieve these goals.

Unlike a gasoline car, an electric vehicle is largely composed of a battery, a power converter (inverter), and a motor. The battery is an energy storage device, and the power converter is a device that converts electrical energy of the battery to generate the necessary driving force. The energy is used to drive the motor to move the vehicle.

Electric vehicles have the advantage of being eco-friendly, but if a fire occurs due to an external shock or an internal short circuit, the battery burns out until it is completely burned out. Because of its size, there was a big problem with the possibility of the vehicle being burned down.

In addition, a technology using a hydrogen fuel cell has been proposed in various embodiments for charging the battery of an electric vehicle, and such a hydrogen fuel cell has been stored in a compressed state in a hydrogen tank due to the nature of hydrogen fuel, When pressure is applied to the tank, there is a problem in that, as a safety measure for preventing the hydrogen tank from exploding, compressed hydrogen may be discharged to the outside, further spreading a vehicle fire or increasing the risk of explosion.

Republic of Korea Patent Registration No. 10-2171358 'Fire suppression cloth' (registration date 2020.10.22.)

In order to solve the above problems, the present invention covers the electric vehicle with a fire suppression cloth at the scene of the accident, suffocates the inside, detects the concentration of internal combustible gas, etc., and exhausts it to the outside so that the fire of the electric vehicle can be extinguished. It has a purpose.

In addition, the present invention forms a plurality of anti-backflow exhaust adapters on the fire suppression cloth, and connects a ventilation device to the exhaust port as necessary to exhaust harmful gases in the fire suppression cloth to the outside, thereby reducing the gas concentration inside the fire suppression cloth. Its purpose is to prevent the risk of explosion by adjusting it.

In addition, the fire suppression cloth surrounding the electric vehicle is provided with a water pocket so that the fire extinguishing water can be sprayed through the supply of fire water or the fire suppression cloth is fixed to the floor so that the fire of the car can be quickly extinguished. .

In order to achieve the above object, the fire suppression cloth for fire suppression of an electric vehicle according to the present invention,

A backflow prevention exhaust adapter (20) connected to a planar fire suppression fabric (10) covering the electric vehicle and at least one air damper (21) provided in the fire suppression fabric (10), allowing air to move only in the exhaust direction. ), and an exhaust device 30 that is connected to the backflow prevention exhaust adapter 20 and measures the concentration in the moving air to operate the exhaust fan 32.

In addition, the fire suppression cloth 10 has at least two layers of incombustible fabric containing glass fiber, high silica, etc., and is integrally formed with flexible pipes 11 arranged at regular intervals therein, and the flexible pipe 11 The fire hose is connected through the fluid supply port 13 provided at the tip of the supplied fire water through the spray hole 14 of the flexible pipe 11 to configure it to be sprayed.

In addition, the fire suppression fabric 10 has at least two layers of incombustible fabric containing glass fiber, high silica, etc., and is integrally formed, and a fire hose is connected to the fluid supply port 13 inside the outer rim while supplying fire fighting water. A water pocket part 12 is formed to press and fix the outer edge to the bottom surface of the electric vehicle, and a transparent observation window (17 ) can be further formed.

In addition, the backflow prevention exhaust adapter 20 opens or closes the inner diameter of the air damper 21 only in the exhaust direction while the air damper 21 is connected so that the inner and outer surfaces of the fire suppression cloth 10 communicate. A backflow prevention plate 22 is provided, and a pipe connector 23 to which the exhaust pipe 31 is connected is formed on the outer surface of the air damper 21.

In addition, the exhaust device 30 includes an exhaust pipe 31 connected to the backflow prevention exhaust adapter 20, a concentration measuring sensor S1 provided in the exhaust pipe 31, and the exhaust pipe 31 An exhaust fan 32 that is assembled to one end of the fan 32 and operates by adjusting the number of rotations of the driving fan 33 in proportion to the measured value of the concentration measuring sensor S1, and an exhaust pipe 31 that is assembled to one side of the exhaust fan 32 ) It can be configured to include an exhaust pipe 34 for exhausting air introduced through.

In addition, the fire suppression cloth 10 may be further provided with a spray nozzle 15 that is connected to the spray hole 14 of the flexible pipe 11 and sprays the fire-fighting water in a spraying direction and diffusion.

In addition, the exhaust pipe 34 of the exhaust device 30 may be further provided with a central exhaust fan 35 rotating in one direction in conjunction with the exhaust fan 32 .

In addition, the fluid supply port 13 of the fire suppression cloth 10 may be further provided with a supply blocking member 13a for opening or closing the front end.

In addition, the ventilation device 30 includes a notification device 40 for warning the risk of explosion by operating the lamp 41 and the speaker 42 by comparing the measured value of the concentration sensor S1 and the stored data, An emergency notification unit 45a for transmitting the risk of explosion to the external terminal 45b may be further included.

In addition, the ventilation device 30 receives a signal from at least one of the concentration measurement sensor S1 provided in the exhaust pipe 31 and the heat measurement sensor S2 provided in the fire suppression cloth 10 and receives an external signal. It may further include a communication unit 45 that communicates with the terminal 45b and a management unit 46 that compares the internal state of the fire suppression cloth through the received state information of the exhaust concentration and internal temperature.

By means of the above solutions, the present invention suffocates bets by covering the accident electric vehicle and blocking the outside air to prevent the occurrence of fire due to an accident of the electric vehicle, ignition of the battery, or explosion due to leakage of charging hydrogen. It has the advantage of improving the convenience of fire suppression by suppressing and suppressing the spread of fire and selectively discharging toxic gases.

In particular, at the scene of the accident, the concentration of flammable gas leaked from the electric vehicle covered by the fire suppression cloth is detected and the exhaust fan is operated to maintain the pressure and gas concentration inside the fire suppression cloth to a safe level to prevent oxygen inflow and explosion. It also has the advantage of improving the safety of fire suppression.

In addition, the present invention has the advantage of arranging a flexible pipe inside the non-flammable fabric and spraying the fire water supplied from the fire hose through the fluid supply port to the electric vehicle through the spray hole to suppress the fire and reduce the gas concentration. .

In addition, the present invention has a water pocket part wrapped around the circumference of the electric vehicle on the outer rim of the non-combustible fabric to store the fire water supplied from the fire hose and fix the outer rim of the fire suppression cloth to the floor to prevent the inflow of outside air and quickly fire It also has the advantage of suppression.

In addition, a backflow prevention plate is provided inside the backflow prevention exhaust adapter so that harmful gases generated by a fire of an electric vehicle can be quickly exhausted from within the fire suppression cloth, thereby preventing explosion inside the fire extinguisher and securing safety There are also advantages to doing it.

In addition, there is an advantage of preventing the spread of fire by blocking the inflow of outside air by detecting harmful gases generated in the fire suppression cloth and adjusting the number of rotations of the driving fan according to the concentration of the gas to exhaust them.

In addition, firefighting water is supplied to the flexible pipe provided inside the fire suppression cloth and sprayed to the electric vehicle, thereby reducing fire and gas generation, and adding a central exhaust fan to the exhaust pipe even in an electric vehicle fire in an enclosed space such as an underground parking lot. It also has the advantage of being able to quickly exhaust harmful gases to the outside.

In addition, there is also an advantage of preventing safety accidents in advance by detecting the state of the electric vehicle in the fire suppression cloth and notifying the risk of explosion visually and audibly to the outside through lamps and speakers.

In addition, by detecting the state of the electric vehicle in the fire suppression cloth and supplying fire water through an external terminal, the exhaust concentration and internal temperature can be adjusted, thereby improving the convenience of fire suppression and product competitiveness.

1 is a schematic view showing the installation configuration of a fire suppression cloth for fire suppression of an electric vehicle according to the present invention.
Figure 2 is an enlarged cross-sectional view showing the configuration of a ventilation device that is a configuration of the present invention.
3 is a plan view of a fire suppression cloth that is a component of the present invention.
4 is a plan view showing an embodiment of a fire suppression cloth that is a configuration of the present invention.
5 is a block diagram illustrating an operational embodiment of the fire suppression gun of the present invention.

Examples of the fire suppression fabric for suppressing electric vehicle fire, which is a configuration of the present invention, can be applied in various ways, and hereinafter, the most preferred embodiment will be described with reference to the accompanying drawings.

First, briefly describing the fire suppression cloth 10 for extinguishing fire in an electric vehicle according to the present invention, as shown in FIGS. An exhaust adapter 20 for preventing backflow is provided along the outer circumference to discharge harmful gases in one direction, and the operation of the ventilation device 30 quickly exhausts harmful gases to the outside to prevent an explosion accident at a fire site. do.

The fire suppression cloth 10 is integrally formed with at least two layers of incombustible fabric containing glass fiber, high silica, etc., and covers the electric vehicle in the event of a fire in the electric vehicle to block the inflow of outside air so that the inside is suffocated. As such, the material constituting the non-combustible fabric of the fire suppression cloth can be applied in various ways according to the needs of those skilled in the art, so it is not limited to a specific one.

Here, in the fire suppression cloth 10, handles that can be gripped by the user are formed at regular intervals on the outer rim so that the fire suppression cloth can be easily spread and covered at a location spaced apart from the electric vehicle at the fire site. desirable.

In addition, the fire suppression cloth 10 further forms a transparent observation window 17 using a flame retardant synthetic resin or silicon in a portion corresponding to at least one glass among the front, side, and rear glass of the electric vehicle, It is designed to check the inside of the fire suppression cloth from the outside even when the electric vehicle is covered with the fire suppression cloth for fire suppression. As for the material constituting the observation window, it can be applied in various ways according to the needs of those skilled in the art, so it is limited to a specific one. I don't.

In addition, the backflow prevention exhaust adapter 20 is connected to the air damper 21 so that the inner and outer surfaces of the fire suppression cloth 10 are in communication, and the inner diameter of the air damper 21 is opened or closed only in the exhaust direction. A backflow prevention plate 22 is provided, and a pipe connector 23 to which the exhaust pipe 31 is connected is formed on the outer surface of the air damper 21 .

At this time, the backflow prevention exhaust adapter 20 is molded with a soft material so that it can be stored together even when the fire suppression cloth 10 is folded and stored, and when unfolded and used at a fire site, harmful gases inside is unidirectionally exhausted to the outside through the air damper 21.

In addition, the fire suppression cloth 10 is integrally formed with at least two layers of incombustible fabric, and the flexible pipe 11 is arranged at regular intervals therein, and the fluid supply port provided at the tip of the flexible pipe 11 ( 13) is connected to a fire hose, and the supplied fire water is injected toward the electric vehicle through the injection hole 14 of the flexible pipe 11.

At this time, it is also included in the present invention that a spray nozzle 15 is further assembled on the inner surface of the fire suppression cloth 10, which is connected to the spray hole 14 of the flexible pipe 11 and sprays the fire water in the spray direction and diffusion. And through the injection nozzle 15, it is possible to extinguish and lower the heat.

In addition, in spraying through the flexible pipe 11 connected to the fluid supply port 13 of the fire suppression cloth 10, various fire extinguishing agents capable of responding to the fire scene can be applied without being limited to firefighters.

In addition, a water pocket part 12 is provided inside along the outer edge of the fire suppression cloth 10, and the fluid supply port 13 provided at the front end of the water pocket part 12 is connected to the fire hose and supplied. By storing the fire-fighting water in the water pocket part 12, the outer edge of the fire suppression cloth 10 is pressed and fixed to the floor surface by the load of the stored fire-fighting water, so that the outer edge does not spread from the floor surface even with wind and pressure. It can prevent the inflow of outside air.

As described above, the fluid supply port 13 of the fire suppression cloth 10 is formed to be connected to a fire hose in various ways such as fastening or key coupling, while opening or closing the fluid supply port 13 at the front end. It is also included in the present invention that the blocking member 13a is further provided to prevent inflow of external foreign matter and leakage of the water pocket.

And, in a state in which the electric vehicle in which the fire has occurred is covered and fixed with the fire suppression cloth 10, the exhaust pipe of the ventilation device 30 is connected to at least one backflow prevention exhaust adapter 20 provided in the fire suppression cloth 10. 31 is connected to exhaust the harmful gas inside the fire suppression cloth 10, the concentration in the exhausted air is measured, the operation of the exhaust fan 32 is adjusted, and the measured value is transmitted to the external terminal 45b.

The ventilation device 30 includes an exhaust pipe 31 connected to the backflow prevention exhaust adapter 20, a concentration measuring sensor S1 provided in the exhaust pipe 31, and An exhaust fan 32 assembled at one end and operated by adjusting the rotation speed of the driving fan 33 in proportion to the measured value of the concentration measuring sensor S1, and an exhaust pipe 31 assembled on one side of the exhaust fan 32 It is configured to include an exhaust pipe 34 for exhausting the air introduced through.

That is, the exhaust device 30 adjusts the number of rotations of the driving fan 33 of the exhaust fan 32 in proportion to the concentration of the harmful gas measured by the concentration measuring sensor S1 provided in the exhaust pipe 31 to adjust the exhaust amount. By making it adjustable, it is possible to prevent the spread of fire due to the inflow of outside air along the rim due to the decrease in pressure inside the fire suppression cloth due to the rapid exhaust, and also to prevent the risk of explosion due to the increase in the concentration of harmful gases.

In addition, even in an electric vehicle fire in an enclosed space such as an underground parking lot, while further connecting an exhaust pipe extending outdoors to the exhaust pipe 34 of the exhaust device 30, the exhaust pipe rotates in one direction in conjunction with the exhaust fan 32 It is also included in the present invention to improve the exhaust efficiency of harmful gases by installing at least one central exhaust fan (35).

And, as shown in FIG. 5, in the ventilation device 30 of the present invention, the measured value of the concentration measuring sensor S1 and the stored data are compared to warn the risk of explosion by operating the lamp 41 and the speaker 42 A notification device 40 and an emergency notification unit 45a for transmitting the risk of explosion to an external terminal 45b may be configured to be further included.

The notification device 40 receives at least one signal from the concentration measurement sensor S1 provided in the exhaust pipe 31 and the heat measurement sensor S2 provided in the fire suppression cloth 10 and stores the average value of the data. When an abnormality is detected, the lamp 41 and the speaker 42 are operated to recognize the danger of explosion to nearby firefighters through a light emitting signal and a warning sound, so that safety accidents can be prevented in advance.

In addition, the ventilation device 30 receives a signal from at least one of the concentration measurement sensor S1 provided in the exhaust pipe 31 and the heat measurement sensor S2 provided in the fire suppression cloth 10 and receives an external signal. It may be configured to further include a communication unit 45 that communicates with the terminal 45b and a management unit 46 that compares the internal state of the fire suppression cloth through the received state information of the exhaust concentration and internal temperature.

That is, the management unit 46 receiving at least one signal from the concentration measurement sensor S1 and the heat measurement sensor S2 provided in the fire suppression cloth 10 rotates the rotational speed of the driving fan 33 of the exhaust fan 32 The concentration of the harmful gas is adjusted by adding or subtracting , and the communication unit 45 transmits status information on the fire situation to the external terminal 45b so that the fire scene can be more easily managed, and the emergency notification unit 45a Informs the risk of explosion at the fire site to prevent safety accidents in advance.

It will be understood that such technical configuration of the present invention can be practiced by those skilled in the art to which the present invention belongs.

Therefore, the embodiments described above are illustrative in all respects and should be understood as non-limiting ones.

10: fire suppression gun 11: flexible pipe
12: water pocket 13: fluid supply port
20: backflow prevention exhaust adapter 21: air damper
22: backflow prevention plate 30: ventilation device
31: exhaust pipe 32: exhaust fan
33: drive fan 34: exhaust pipe
40: notification device 41: lamp
42: speaker 45: communication unit
46: management department
S1: concentration measurement sensor S2: heat measurement sensor

Claims (10)

A flat fire suppression cloth covering the electric vehicle;
a backflow prevention exhaust adapter connected to at least one air damper provided in the fire suppression cloth and capable of moving air only in an exhaust direction;
A fire suppression cloth for extinguishing an electric vehicle fire, characterized in that it is configured to include a ventilation device connected to the backflow prevention exhaust adapter to measure the concentration in the moving air and operate the exhaust fan.
According to claim 1,
The fire suppression gun,
Incombustible fabrics containing glass fiber, high silica, etc. have at least two layers and are integrally formed, and flexible pipes are arranged at regular intervals inside, and a fire hose is connected and supplied through a fluid supply port provided at the tip of the flexible pipe A fire suppression cloth for fire suppression of an electric vehicle, characterized in that the fire water is configured to be sprayed through the spray hole of the flexible pipe.
According to claim 1,
The fire suppression gun,
At least two layers of incombustible woven fabric containing glass fiber, high silica, etc. are integrally formed, and a water pocket part is formed inside the outer rim to store the supplied fire extinguishing water while connecting the fire hose to the fluid supply port and press the outer rim to the floor to fix it. And, a transparent observation window using a flame retardant synthetic resin or silicon is further formed in a portion corresponding to at least one of the front, side, and rear glass of the electric vehicle.
According to claim 1,
The backflow prevention exhaust adapter,
As the air damper is connected so that the inner and outer surfaces of the fire suppression cloth are in communication, a backflow prevention plate that opens or closes only in the exhaust direction is provided on the inner diameter of the air damper, and a pipe connector to which the exhaust pipe is connected is formed on the outer surface of the air damper. Fire suppression cloth for electric vehicle fire suppression, characterized in that.
According to claim 1,
The exhaust device,
an exhaust pipe connected to the backflow preventing exhaust adapter;
a concentration measuring sensor provided in the exhaust pipe;
An exhaust fan that is assembled to one end of the exhaust pipe and operates by adjusting the number of revolutions of the driving fan in proportion to the measured value of the concentration measuring sensor;
A fire suppression cloth for fire suppression of an electric vehicle, characterized in that it comprises an exhaust pipe assembled on one side of the exhaust fan to exhaust air introduced through the exhaust pipe.
According to claim 2,
The fire suppression gun,
A fire suppression cloth for extinguishing electric vehicle fires, characterized in that it is further provided with a spray nozzle connected to the spray hole of the flexible pipe to spray the fire water in a spray direction and spread.
According to claim 5,
In the exhaust pipe of the exhaust device,
A fire suppression cloth for fire suppression of an electric vehicle, characterized in that it is further provided with a central exhaust fan rotating in one direction in conjunction with the exhaust fan.
According to claim 3,
In the fluid supply port of the fire suppression cloth,
A fire suppression cloth for suppressing electric vehicle fires, characterized in that a supply blocking member for opening or closing the front end is further provided.
According to claim 5,
In the exhaust device,
An electric vehicle fire suppression characterized by further comprising a notification device that compares the measured value of the concentration measuring sensor with stored data and warns of the risk of explosion by operating a lamp and a speaker, and an emergency notification unit that transmits the risk of explosion to an external terminal. dragon fire suppression cannon.
According to claim 5,
In the exhaust device,
A communication unit that receives at least one signal from among the concentration measurement sensor provided in the exhaust pipe and the heat measurement sensor provided in the fire suppression cloth and performs communication with an external terminal, and the received exhaust concentration and internal temperature state information. Fire suppression cloth for electric vehicle fire suppression, characterized in that it further comprises a management unit for comparing the state of the inside of the suppression cloth.

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